OBJECTIVE: To evaluate published pediatric dual-energy x-ray absorptiometry bone mineral density (BMD) reference data by comparing the diagnostic classification of measured BMD in children at risk for osteopenia as healthy or osteopenic according to reference source. STUDY DESIGN: Spine BMD was measured in 95 children, ages 9 to 15 years, at risk for osteopenia because of childhood disease. The BMD results were converted to age-specific z scores for each of the 5 reference data sets, and the z -score distributions were compared. RESULTS: Between 11% and 30% of children were classified as osteopenic (z score < -2.0) depending on the reference data set. The 2 sex-specific reference data sets yielded similar diagnostic classification of boys and girls: 10% of boys and 11% to 16% of girls were osteopenic (P =.4). The 3 sex-nonspecific reference data sets classified 9% to 13% of girls and 24% to 44% of boys as osteopenic; the diagnosis of osteopenia was significantly greater in boys (P <.01). CONCLUSIONS: The use of different published reference data for the assessment of children at risk for osteopenia results in inconsistent diagnostic classification of BMD results. These inconsistencies can be partially attributed to sex-nonspecific reference data that result in misclassification of boys as osteopenic.
OBJECTIVE: To evaluate published pediatric dual-energy x-ray absorptiometry bone mineral density (BMD) reference data by comparing the diagnostic classification of measured BMD in children at risk for osteopenia as healthy or osteopenic according to reference source. STUDY DESIGN: Spine BMD was measured in 95 children, ages 9 to 15 years, at risk for osteopenia because of childhood disease. The BMD results were converted to age-specific z scores for each of the 5 reference data sets, and the z -score distributions were compared. RESULTS: Between 11% and 30% of children were classified as osteopenic (z score < -2.0) depending on the reference data set. The 2 sex-specific reference data sets yielded similar diagnostic classification of boys and girls: 10% of boys and 11% to 16% of girls were osteopenic (P =.4). The 3 sex-nonspecific reference data sets classified 9% to 13% of girls and 24% to 44% of boys as osteopenic; the diagnosis of osteopenia was significantly greater in boys (P <.01). CONCLUSIONS: The use of different published reference data for the assessment of children at risk for osteopenia results in inconsistent diagnostic classification of BMD results. These inconsistencies can be partially attributed to sex-nonspecific reference data that result in misclassification of boys as osteopenic.
Authors: David R Weber; Alison Boyce; Catherine Gordon; Wolfgang Högler; Heidi H Kecskemethy; Madhusmita Misra; Diana Swolin-Eide; Peter Tebben; Leanne M Ward; Halley Wasserman; Christopher Shuhart; Babette S Zemel Journal: J Clin Densitom Date: 2019-07-10 Impact factor: 2.617
Authors: Jinhui Ma; Kerry Siminoski; Nathalie Alos; Jacqueline Halton; Josephine Ho; Brian Lentle; MaryAnn Matzinger; Nazih Shenouda; Stephanie Atkinson; Ronald Barr; David A Cabral; Robert Couch; Elizabeth A Cummings; Conrad V Fernandez; Ronald M Grant; Celia Rodd; Anne Marie Sbrocchi; Maya Scharke; Frank Rauch; Leanne M Ward Journal: J Clin Endocrinol Metab Date: 2014-12-11 Impact factor: 5.958
Authors: I M van der Sluis; M A J de Ridder; A M Boot; E P Krenning; S M P F de Muinck Keizer-Schrama Journal: Arch Dis Child Date: 2002-10 Impact factor: 3.791
Authors: Kuan Chung Wang; Kuan Chieh Wang; Afsaneh Amirabadi; Edward Cheung; Elizabeth Uleryk; Rahim Moineddin; Andrea S Doria Journal: Pediatr Radiol Date: 2014-06-25